Jerome T. Mlack scite author profile

Two-dimensional materials are promising for a range of applications, as well as testbeds for probing the physics of low-dimensional systems. Tungsten disulfide (WS2) monolayers exhibit a direct band gap and strong photoluminescence (PL) in the visible range, opening possibilities for advanced optoelectronic applications. Here, we report the realization of two-dimensional nanometersize pores in suspended monolayer WS2 membranes, allowing for electrical and optical response in ionic current measurements. A focused electron beam was used to fabricate nanopores in WS2 membranes suspended on silicon-based chips and characterized using PL spectroscopy and aberration-corrected high-resolution scanning transmission electron microscopy. It was observed that the PL intensity of suspended WS2 monolayers is ~10–15 times stronger when compared to that of substrate-supported monolayers, and low-dose scanning transmission electron microscope viewing and drilling preserves the PL signal of WS2 around the pore. We establish that such nanopores allow ionic conductance and DNA translocations. We also demonstrate that under low-power laser illumination in solution, WS2 nanopores grow slowly in size at an effective rate of ~0.2–0.4 nm/s, thus allowing for atomically controlled nanopore size using short light pulses.

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Scalable in operando strain tuning in nanophotonic waveguides enabling three-quantum-dot superradiance

Grim¹,

Bracker²,

Zalalutdinov³

et al. 2019

Nat. Mater.

128

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Transfer of monolayer TMD WS2 and Raman study of substrate effects

Mlack

Das

Danda

et al. 2017

Sci Rep

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A facile transfer process for transition metal dichalcogenide WS2 flakes is reported and the effect of the underlying substrate on the flake properties is investigated using Raman spectroscopy. The flakes are transferred from their growth substrate using polymethyl methacrylate (PMMA) and a wet etch to allow the user to transfer the flakes to a final substrate using a microscope and micromanipulator combined with semi-transparent Kapton tape. The substrates used range from insulators such as industry standard high-k dielectric HfO2 and “green polymer” parylene-C, to conducting chemical vapor deposition (CVD) grown graphene. Raman spectroscopy is used first to confirm the material quality of the transferred flakes to the substrates and subsequently to analyze and separate the effects arising from material transfer from those arising from interactions with the substrate. We observe changes in the Raman spectra associated with the interactions between the substrates in the flakes. These interactions affect both in-plane and out-of-plane modes in different ways depending on their sources, for example strain or surface charge. These changes vary with final substrate, with the strongest effects being observed for WS2 transferred onto graphene and HfO2, demonstrating the importance of understanding substrate interaction for fabrication of future devices.

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Magnetization Process in Dilute Magnetic Oxides

et al. 2010

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Thin films of dilute magnetic oxides often exhibit high-temperature ferromagnetism with magnetization curves of the form tanh( 0 ); the curves are practically anhysteretic and temperature-independent below room temperature. The absence of temperature-dependent coercivity indicates that the magnetization process is dominated by magnetic dipole interactions, not by magnetocrystalline anisotropy. In a model of ferromagnetic grain boundaries, 0 0 14 0 , where 0 is the magnetization of the ferromagnetic regions. Quantitative analysis of more than 200 films of different oxides reveals that only a few percent of the volume of these films is magnetically ordered.

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Jerome T. Mlack

Monolayer WS₂ Nanopores for DNA Translocation with Light-Adjustable Sizes

Scalable in operando strain tuning in nanophotonic waveguides enabling three-quantum-dot superradiance

Transfer of monolayer TMD WS2 and Raman study of substrate effects

Magnetization Process in Dilute Magnetic Oxides

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About

Jerome T. Mlack

Monolayer WS2 Nanopores for DNA Translocation with Light-Adjustable Sizes

Scalable in operando strain tuning in nanophotonic waveguides enabling three-quantum-dot superradiance

Transfer of monolayer TMD WS2 and Raman study of substrate effects

Magnetization Process in Dilute Magnetic Oxides

Contact Info

Product

Resources

About

Monolayer WS₂ Nanopores for DNA Translocation with Light-Adjustable Sizes